tomcrypt/yarrow.c

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C
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/* LibTomCrypt, modular cryptographic library -- Tom St Denis
*
* LibTomCrypt is a library that provides various cryptographic
* algorithms in a highly modular and flexible manner.
*
* The library is free for all purposes without any express
* gurantee it works.
*
* Tom St Denis, tomstdenis@iahu.ca, http://libtomcrypt.org
*/
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#include "mycrypt.h"
#ifdef YARROW
const struct _prng_descriptor yarrow_desc =
{
"yarrow",
&yarrow_start,
&yarrow_add_entropy,
&yarrow_ready,
&yarrow_read
};
int yarrow_start(prng_state *prng)
{
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int err;
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_ARGCHK(prng != NULL);
/* these are the default hash/cipher combo used */
#ifdef RIJNDAEL
prng->yarrow.cipher = register_cipher(&rijndael_desc);
#elif defined(BLOWFISH)
prng->yarrow.cipher = register_cipher(&blowfish_desc);
#elif defined(TWOFISH)
prng->yarrow.cipher = register_cipher(&twofish_desc);
#elif defined(RC6)
prng->yarrow.cipher = register_cipher(&rc6_desc);
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#elif defined(RC5)
prng->yarrow.cipher = register_cipher(&rc5_desc);
#elif defined(SAFERP)
prng->yarrow.cipher = register_cipher(&saferp_desc);
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#elif defined(RC2)
prng->yarrow.cipher = register_cipher(&rc2_desc);
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#elif defined(NOEKEON)
prng->yarrow.cipher = register_cipher(&noekeon_desc);
#elif defined(CAST5)
prng->yarrow.cipher = register_cipher(&cast5_desc);
#elif defined(XTEA)
prng->yarrow.cipher = register_cipher(&xtea_desc);
#elif defined(SAFER)
prng->yarrow.cipher = register_cipher(&safer_sk128_desc);
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#elif defined(DES)
prng->yarrow.cipher = register_cipher(&des3_desc);
#elif
#error YARROW needs at least one CIPHER
#endif
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if ((err = cipher_is_valid(prng->yarrow.cipher)) != CRYPT_OK) {
return err;
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}
#ifdef SHA256
prng->yarrow.hash = register_hash(&sha256_desc);
#elif defined(SHA512)
prng->yarrow.hash = register_hash(&sha512_desc);
#elif defined(TIGER)
prng->yarrow.hash = register_hash(&tiger_desc);
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#elif defined(SHA1)
prng->yarrow.hash = register_hash(&sha1_desc);
#elif defined(RIPEMD160)
prng->yarrow.hash = register_hash(&rmd160_desc);
#elif defined(RIPEMD128)
prng->yarrow.hash = register_hash(&rmd128_desc);
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#elif defined(MD5)
prng->yarrow.hash = register_hash(&md5_desc);
#elif defined(MD4)
prng->yarrow.hash = register_hash(&md4_desc);
#elif defined(MD2)
prng->yarrow.hash = register_hash(&md2_desc);
#else
#error YARROW needs at least one HASH
#endif
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if ((err = hash_is_valid(prng->yarrow.hash)) != CRYPT_OK) {
return err;
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}
/* zero the memory used */
zeromem(prng->yarrow.pool, sizeof(prng->yarrow.pool));
return CRYPT_OK;
}
int yarrow_add_entropy(const unsigned char *buf, unsigned long len, prng_state *prng)
{
hash_state md;
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int err;
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_ARGCHK(buf != NULL);
_ARGCHK(prng != NULL);
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if ((err = hash_is_valid(prng->yarrow.hash)) != CRYPT_OK) {
return err;
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}
/* start the hash */
hash_descriptor[prng->yarrow.hash].init(&md);
/* hash the current pool */
hash_descriptor[prng->yarrow.hash].process(&md, prng->yarrow.pool, hash_descriptor[prng->yarrow.hash].hashsize);
/* add the new entropy */
hash_descriptor[prng->yarrow.hash].process(&md, buf, len);
/* store result */
hash_descriptor[prng->yarrow.hash].done(&md, prng->yarrow.pool);
return CRYPT_OK;
}
int yarrow_ready(prng_state *prng)
{
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int ks, err;
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_ARGCHK(prng != NULL);
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if ((err = hash_is_valid(prng->yarrow.hash)) != CRYPT_OK) {
return err;
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}
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if ((err = cipher_is_valid(prng->yarrow.cipher)) != CRYPT_OK) {
return err;
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}
/* setup CTR mode using the "pool" as the key */
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ks = (int)hash_descriptor[prng->yarrow.hash].hashsize;
if ((err = cipher_descriptor[prng->yarrow.cipher].keysize(&ks)) != CRYPT_OK) {
return err;
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}
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if ((err = ctr_start(prng->yarrow.cipher, /* what cipher to use */
prng->yarrow.pool, /* IV */
prng->yarrow.pool, ks, /* KEY and key size */
0, /* number of rounds */
&prng->yarrow.ctr)) != CRYPT_OK) {
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return err;
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}
return CRYPT_OK;
}
unsigned long yarrow_read(unsigned char *buf, unsigned long len, prng_state *prng)
{
_ARGCHK(buf != NULL);
_ARGCHK(prng != NULL);
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/* put buf in predictable state first */
zeromem(buf, len);
/* now randomize it */
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if (ctr_encrypt(buf, buf, len, &prng->yarrow.ctr) != CRYPT_OK) {
return 0;
}
return len;
}
#endif